48th IFF Spring School - Topological Matter - Topological Insulators, Skyrmions and Majoranas
Overview
Topology is the branch of mathematics that deals with properties of spaces that are invariant under smooth deformations. It provides newly appreciated mathematical tools in condensed matter physics that are currently revolutionizing the field of quantum matter and materials.
Topology dictates that if two different Hamiltonians can be smoothly deformed into each other they give rise to many common physical properties and states are homotopy invariant. Thus, topological invariance, which is often protected by discrete symmetries, provides some robustness that translates into the quantization of properties; such a robust quantization motivates the search and discovery of new topological matter.
So far, the mainstream of modern topological condensed matter physics relies on two profoundly different scenarios: the emergence of the complex topology either in real space, as manifested e.g. in non-trivial magnetic structures or in momentum space, finding its realization in such materials as topological and Chern insulators.
The latter renowned class of solids attracted considerable attention in recent years owing to its fascinating properties of spin-momentum locking, emergence of topologically protected surface/edge states governed by Dirac physics, as well as the quantization of Hall conductance and the discovery of the quantum spin Hall effect. Historically, the discovery of topological insulators gave rise to the discovery of a whole plethora of topologically non-trivial materials such as Weyl semimetals or topological superconductors, relevant in the context of the realization of Majorana fermions and topological quantum computation.
Find out more on the Spring School website!
Scientific Organization
Prof. Dr. Stefan Blügel | Forschungszentrum Jülich GmbH Director, Institute of Quantum Theory of Materials (PGI-1/IAS-1) Peter Grünberg Institute 52425 Jülich, Germany |
Prof. Dr. Yuriy Mokrousov | Forschungszentrum Jülich GmbH Head of Young Investigators Group "Topological Nanoelectronics Group" (PGI-1 / IAS-1) Peter Grünberg Institute 52425 Jülich, Germany |
Prof. Dr. Thomas Schäpers | Forschungszentrum Jülich GmbH Group Leader "Magnetotransport" (PGI-9) Peter Grünberg Institute 52425 Jülich, Germany |
Prof. Dr. Yoichi Ando | University of Cologne Physics Institute II Zülpicher Str. 77 50937 Cologne, Germany |
School Organization
Barbara Daegener | Forschungszentrum Jülich GmbH Secretary, Institute of Scattering Methods (PGI-4/JCNS-2) 52425 Jülich, Germany Tel: +49 2461 61-4750 |
Email: springschool@fz-juelich.de